<html><head><style type='text/css'>p { margin: 0; }</style></head><body><div style='font-family: Times New Roman; font-size: 12pt; color: #000000'><DIV style="FONT-FAMILY: Times New Roman; COLOR: #000000; FONT-SIZE: 12pt">
<P><SPAN>Dear All, </SPAN></P>
<P><SPAN></SPAN>&nbsp;</P>
<P><SPAN>My name is Daniel Aguiar and I´m a begginer in&nbsp;"pseudopotential generation art".</SPAN></P>
<P><SPAN>My PhD thesis is about organic molecules solid state NMR GIPAW calculations&nbsp;and in QE website&nbsp;gipaw pseudopotentials are limited. So, I´m trying build my own pseudopotentials.</SPAN></P>
<P><SPAN>I´m following the classical Silicon example (&nbsp;<A href="http://www.fisica.uniud.it/~giannozz/Corsi/MetNum/LectureNotes/metnum-ex2.pdf">http://www.fisica.uniud.it/~giannozz/Corsi/MetNum/LectureNotes/metnum-ex2.pdf</A>&nbsp;and <A href="http://www.fisica.uniud.it/~giannozz/Atom/doc.pdf">http://www.fisica.uniud.it/~giannozz/Atom/doc.pdf</A>) and some aspects of the tutorials<SPAN id=8daba029-9cb5-46d1-a651-7c5dd2b04618>/</SPAN><SPAN id=result_box lang=en class=short_text closure_uid_s86tu5="96" td="null" c="4" a="undefined"><SPAN class=hps closure_uid_s86tu5="206">exercises are not clear for me.</SPAN></SPAN></SPAN></P>
<P><SPAN><SPAN lang=en class=short_text closure_uid_s86tu5="96" td="null" c="4" a="undefined"><SPAN class=hps closure_uid_s86tu5="206"></SPAN></SPAN></SPAN>&nbsp;</P>
<P><SPAN><SPAN lang=en class=short_text closure_uid_s86tu5="96" td="null" c="4" a="undefined"><SPAN class=hps closure_uid_s86tu5="206">1) A typical value to logarithmic derivative&nbsp; is the midpoint of a typical bonding, or the ionic<SPAN id=8daba029-9cb5-46d1-a651-7c5dd2b04618>/covalent radii. The&nbsp;chemical bonding is&nbsp;variable to organic molecules, so&nbsp;my choice is the ionic radius of Silicon.&nbsp;However the example value to rlderiv is 2.1, but the silicon is 1.11 Å. How it works<SPAN id=8daba029-9cb5-46d1-a651-7c5dd2b04618>?</SPAN></SPAN></SPAN></SPAN></SPAN></P>
<P><SPAN>&nbsp;</P>
<P>2) How can I get a razoable value to logarithimic derivative energy parameters ( eminld, emaxld and deld)<SPAN id=8daba029-9cb5-46d1-a651-7c5dd2b04618>?</SPAN>. In&nbsp;example the values are eminld=-11.0, emaxld=2.0 and deld=0.01d0, but I think that for other atoms these values can change for a good pseudopotential generation.</P>
<P>&nbsp;</P>
<P>3)&nbsp;In&nbsp;last lines, there&nbsp;is a list of informations&nbsp;about the pseudization. In this input section, I can´t understand the <SPAN id=result_box lang=en class=short_text td="null" c="4" a="undefined" closure_uid_o00xmk="104"><SPAN class=hps td="null" closure_uid_o00xmk="95">third column significance. What this numbers means<SPAN id=8daba029-9cb5-46d1-a651-7c5dd2b04618>?</SPAN></SPAN></SPAN></P><SPAN lang=en class=short_text td="null" c="4" a="undefined" closure_uid_o00xmk="104"><SPAN class=hps td="null" closure_uid_o00xmk="95"><SPAN></SPAN></SPAN></SPAN></SPAN></DIV>
<P><SPAN><SPAN lang=en class=short_text td="null" c="4" a="undefined" closure_uid_o00xmk="104"><SPAN class=hps td="null" closure_uid_o00xmk="95"><SPAN></SPAN></SPAN></SPAN></SPAN>&nbsp;</P>
<P><SPAN><SPAN lang=en class=short_text td="null" c="4" a="undefined" closure_uid_o00xmk="104"><SPAN class=hps td="null" closure_uid_o00xmk="95"><SPAN>4) The matching radii&nbsp; for s, p and d silicon orbitals is 2.4. How can I calculate the matching radii for other atoms<SPAN><SPAN lang=en class=short_text td="null" c="4" a="undefined" closure_uid_o00xmk="104"><SPAN class=hps td="null" closure_uid_o00xmk="95"><SPAN><SPAN id=8daba029-9cb5-46d1-a651-7c5dd2b04618>? Anyone have some reference to do this<SPAN><SPAN lang=en class=short_text td="null" c="4" a="undefined" closure_uid_o00xmk="104"><SPAN class=hps td="null" closure_uid_o00xmk="95"><SPAN><SPAN id=8daba029-9cb5-46d1-a651-7c5dd2b04618>?</SPAN></SPAN></SPAN></SPAN></SPAN></SPAN></SPAN></SPAN></SPAN></SPAN></SPAN></SPAN></SPAN></SPAN></P>
<P><SPAN><SPAN lang=en class=short_text td="null" c="4" a="undefined" closure_uid_o00xmk="104"><SPAN class=hps td="null" closure_uid_o00xmk="95"><SPAN><SPAN><SPAN lang=en class=short_text td="null" c="4" a="undefined" closure_uid_o00xmk="104"><SPAN class=hps td="null" closure_uid_o00xmk="95"><SPAN><SPAN></SPAN></SPAN></SPAN></SPAN></SPAN></SPAN></SPAN></SPAN></SPAN>&nbsp;</P>
<P><SPAN><SPAN lang=en class=short_text td="null" c="4" a="undefined" closure_uid_o00xmk="104"><SPAN class=hps td="null" closure_uid_o00xmk="95"><SPAN><SPAN><SPAN lang=en class=short_text td="null" c="4" a="undefined" closure_uid_o00xmk="104"><SPAN class=hps td="null" closure_uid_o00xmk="95"><SPAN><SPAN>Sorry if my question sounds stupid, </SPAN></SPAN></SPAN></SPAN></SPAN></SPAN></SPAN></SPAN></SPAN></P>
<P><SPAN><SPAN lang=en class=short_text td="null" c="4" a="undefined" closure_uid_o00xmk="104"><SPAN class=hps td="null" closure_uid_o00xmk="95"><SPAN><SPAN><SPAN lang=en class=short_text td="null" c="4" a="undefined" closure_uid_o00xmk="104"><SPAN class=hps td="null" closure_uid_o00xmk="95"><SPAN><SPAN></SPAN></SPAN></SPAN></SPAN></SPAN></SPAN></SPAN></SPAN></SPAN>&nbsp;</P>
<P><SPAN><SPAN lang=en class=short_text td="null" c="4" a="undefined" closure_uid_o00xmk="104"><SPAN class=hps td="null" closure_uid_o00xmk="95"><SPAN><SPAN><SPAN lang=en class=short_text td="null" c="4" a="undefined" closure_uid_o00xmk="104"><SPAN class=hps td="null" closure_uid_o00xmk="95"><SPAN><SPAN>Thanks in advance,</SPAN></SPAN></SPAN></SPAN></SPAN></SPAN></SPAN></SPAN></P>
<P style="FONT-FAMILY: Times New Roman; COLOR: #000000; FONT-SIZE: 12pt"><BR><BR>-- <BR>Daniel Lima Marques de Aguiar<BR>Universidade Federal do Rio de Janeiro / Centro de Tecnologia<BR>Instituto de Química<BR>Programa de Pós Graduação em Química<BR>Laboratório de Ressonância Magnética Nuclear - Salas 605/608/614<BR></P></SPAN></div></body></html>